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// Copyright (c) 2008-2022 NVIDIA Corporation. All rights reserved.
// Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved.
// Copyright (c) 2001-2004 NovodeX AG. All rights reserved.
#ifndef PX_SCENE_DESC_H
#define PX_SCENE_DESC_H
#include "PxSceneQueryDesc.h"
#include "PxPhysXConfig.h"
#include "foundation/PxFlags.h"
#include "foundation/PxBounds3.h"
#include "foundation/PxBitUtils.h"
#include "PxFiltering.h"
#include "PxBroadPhase.h"
#include "common/PxTolerancesScale.h"
#include "task/PxTask.h"
#if !PX_DOXYGEN
namespace physx
{
#endif
class PxBroadPhaseCallback;
class PxCudaContextManager;
struct PxFrictionType
{
enum Enum
{
ePATCH,
eONE_DIRECTIONAL,
eTWO_DIRECTIONAL,
eFRICTION_COUNT
};
};
struct PxSolverType
{
enum Enum
{
ePGS,
eTGS
};
};
struct PxSceneFlag
{
enum Enum
{
eENABLE_ACTIVE_ACTORS = (1<<0),
eENABLE_CCD = (1<<1),
eDISABLE_CCD_RESWEEP = (1<<2),
eENABLE_PCM = (1 << 6),
eDISABLE_CONTACT_REPORT_BUFFER_RESIZE = (1 << 7),
eDISABLE_CONTACT_CACHE = (1 << 8),
eREQUIRE_RW_LOCK = (1 << 9),
eENABLE_STABILIZATION = (1 << 10),
eENABLE_AVERAGE_POINT = (1 << 11),
eEXCLUDE_KINEMATICS_FROM_ACTIVE_ACTORS = (1 << 12),
/*\brief Enables the GPU dynamics pipeline
When set to true, a CUDA ARCH 3.0 or above-enabled NVIDIA GPU is present and the CUDA context manager has been configured, this will run the GPU dynamics pipelin instead of the CPU dynamics pipeline.
Note that this flag is not mutable and must be set in PxSceneDesc at scene creation.
*/
eENABLE_GPU_DYNAMICS = (1 << 13),
eENABLE_ENHANCED_DETERMINISM = (1<<14),
eENABLE_FRICTION_EVERY_ITERATION = (1 << 15),
/*
\brief Disables GPU readback of articulation data when running on GPU.
Useful if your application only needs to communicate to the GPU via GPU buffers. Can be significantly faster
*/
eSUPPRESS_READBACK = (1<<16),
/*
\brief Forces GPU readback of articulation data when user raise eSUPPRESS_READBACK.
*/
eFORCE_READBACK = (1 << 17),
eMUTABLE_FLAGS = eENABLE_ACTIVE_ACTORS|eEXCLUDE_KINEMATICS_FROM_ACTIVE_ACTORS|eSUPPRESS_READBACK
};
};
typedef PxFlags<PxSceneFlag::Enum,PxU32> PxSceneFlags;
PX_FLAGS_OPERATORS(PxSceneFlag::Enum,PxU32)
class PxSimulationEventCallback;
class PxContactModifyCallback;
class PxCCDContactModifyCallback;
class PxSimulationFilterCallback;
class PxSceneLimits
{
public:
PxU32 maxNbActors;
PxU32 maxNbBodies;
PxU32 maxNbStaticShapes;
PxU32 maxNbDynamicShapes;
PxU32 maxNbAggregates;
PxU32 maxNbConstraints;
PxU32 maxNbRegions;
PxU32 maxNbBroadPhaseOverlaps;
PX_INLINE PxSceneLimits();
PX_INLINE void setToDefault();
PX_INLINE bool isValid() const;
};
PX_INLINE PxSceneLimits::PxSceneLimits() : //constructor sets to default
maxNbActors (0),
maxNbBodies (0),
maxNbStaticShapes (0),
maxNbDynamicShapes (0),
maxNbAggregates (0),
maxNbConstraints (0),
maxNbRegions (0),
maxNbBroadPhaseOverlaps (0)
{
}
PX_INLINE void PxSceneLimits::setToDefault()
{
*this = PxSceneLimits();
}
PX_INLINE bool PxSceneLimits::isValid() const
{
if(maxNbRegions>256) // max number of regions is currently limited
return false;
return true;
}
//#if PX_SUPPORT_GPU_PHYSX
struct PxgDynamicsMemoryConfig
{
PxU32 tempBufferCapacity;
PxU32 maxRigidContactCount;
PxU32 maxRigidPatchCount;
PxU32 heapCapacity;
PxU32 foundLostPairsCapacity;
PxU32 foundLostAggregatePairsCapacity;
PxU32 totalAggregatePairsCapacity;
PxU32 maxSoftBodyContacts;
PxU32 maxFemClothContacts;
PxU32 maxParticleContacts;
PxU32 collisionStackSize;
PxU32 maxHairContacts;
PxgDynamicsMemoryConfig() :
tempBufferCapacity(16 * 1024 * 1024),
maxRigidContactCount(1024 * 512),
maxRigidPatchCount(1024 * 80),
heapCapacity(64 * 1024 * 1024),
foundLostPairsCapacity(256 * 1024),
foundLostAggregatePairsCapacity(1024),
totalAggregatePairsCapacity(1024),
maxSoftBodyContacts(1 * 1024 * 1024),
maxFemClothContacts(1 * 1024 * 1024),
maxParticleContacts(1*1024*1024),
collisionStackSize(64*1024*1024),
maxHairContacts(1 * 1024 * 1024)
{
}
PX_PHYSX_CORE_API bool isValid() const;
};
PX_INLINE bool PxgDynamicsMemoryConfig::isValid() const
{
const bool isPowerOfTwo = PxIsPowerOfTwo(heapCapacity);
return isPowerOfTwo;
}
//#endif
class PxSceneDesc : public PxSceneQueryDesc
{
public:
PxVec3 gravity;
PxSimulationEventCallback* simulationEventCallback;
PxContactModifyCallback* contactModifyCallback;
PxCCDContactModifyCallback* ccdContactModifyCallback;
const void* filterShaderData;
PxU32 filterShaderDataSize;
PxSimulationFilterShader filterShader;
PxSimulationFilterCallback* filterCallback;
PxPairFilteringMode::Enum kineKineFilteringMode;
PxPairFilteringMode::Enum staticKineFilteringMode;
PxBroadPhaseType::Enum broadPhaseType;
PxBroadPhaseCallback* broadPhaseCallback;
PxSceneLimits limits;
PxFrictionType::Enum frictionType;
PxSolverType::Enum solverType;
PxReal bounceThresholdVelocity;
PxReal frictionOffsetThreshold;
PxReal frictionCorrelationDistance;
PxSceneFlags flags;
PxCpuDispatcher* cpuDispatcher;
PxCudaContextManager* cudaContextManager;
void* userData;
PxU32 solverBatchSize;
PxU32 solverArticulationBatchSize;
PxU32 nbContactDataBlocks;
PxU32 maxNbContactDataBlocks;
PxReal maxBiasCoefficient;
PxU32 contactReportStreamBufferSize;
PxU32 ccdMaxPasses;
PxReal ccdThreshold;
PxReal ccdMaxSeparation;
PxReal wakeCounterResetValue;
PxBounds3 sanityBounds;
PxgDynamicsMemoryConfig gpuDynamicsConfig;
PxU32 gpuMaxNumPartitions;
PxU32 gpuMaxNumStaticPartitions;
PxU32 gpuComputeVersion;
PxU32 contactPairSlabSize;
PxSceneQuerySystem* sceneQuerySystem;
private:
// For internal use only
PxTolerancesScale tolerancesScale;
public:
PX_INLINE PxSceneDesc(const PxTolerancesScale& scale);
PX_INLINE void setToDefault(const PxTolerancesScale& scale);
PX_INLINE bool isValid() const;
// For internal use only
PX_INLINE const PxTolerancesScale& getTolerancesScale() const { return tolerancesScale; }
};
PX_INLINE PxSceneDesc::PxSceneDesc(const PxTolerancesScale& scale):
gravity (PxVec3(0.0f)),
simulationEventCallback (NULL),
contactModifyCallback (NULL),
ccdContactModifyCallback (NULL),
filterShaderData (NULL),
filterShaderDataSize (0),
filterShader (NULL),
filterCallback (NULL),
kineKineFilteringMode (PxPairFilteringMode::eDEFAULT),
staticKineFilteringMode (PxPairFilteringMode::eDEFAULT),
broadPhaseType (PxBroadPhaseType::ePABP),
broadPhaseCallback (NULL),
frictionType (PxFrictionType::ePATCH),
solverType (PxSolverType::ePGS),
bounceThresholdVelocity (0.2f * scale.speed),
frictionOffsetThreshold (0.04f * scale.length),
frictionCorrelationDistance (0.025f * scale.length),
flags (PxSceneFlag::eENABLE_PCM),
cpuDispatcher (NULL),
cudaContextManager (NULL),
userData (NULL),
solverBatchSize (128),
solverArticulationBatchSize (16),
nbContactDataBlocks (0),
maxNbContactDataBlocks (1<<16),
maxBiasCoefficient (PX_MAX_F32),
contactReportStreamBufferSize (8192),
ccdMaxPasses (1),
ccdThreshold (PX_MAX_F32),
ccdMaxSeparation (0.04f * scale.length),
wakeCounterResetValue (20.0f*0.02f),
sanityBounds (PxBounds3(PxVec3(-PX_MAX_BOUNDS_EXTENTS), PxVec3(PX_MAX_BOUNDS_EXTENTS))),
gpuMaxNumPartitions (8),
gpuMaxNumStaticPartitions (16),
gpuComputeVersion (0),
contactPairSlabSize (256),
sceneQuerySystem (NULL),
tolerancesScale (scale)
{
}
PX_INLINE void PxSceneDesc::setToDefault(const PxTolerancesScale& scale)
{
*this = PxSceneDesc(scale);
}
PX_INLINE bool PxSceneDesc::isValid() const
{
if(!PxSceneQueryDesc::isValid())
return false;
if(!filterShader)
return false;
if( ((filterShaderDataSize == 0) && (filterShaderData != NULL)) ||
((filterShaderDataSize > 0) && (filterShaderData == NULL)) )
return false;
if(!limits.isValid())
return false;
if(bounceThresholdVelocity <= 0.0f)
return false;
if(frictionOffsetThreshold < 0.0f)
return false;
if(frictionCorrelationDistance <= 0)
return false;
if(maxBiasCoefficient < 0.0f)
return false;
if(!ccdMaxPasses)
return false;
if(ccdThreshold <= 0.0f)
return false;
if(ccdMaxSeparation < 0.0f)
return false;
if(!cpuDispatcher)
return false;
if(!contactReportStreamBufferSize)
return false;
if(maxNbContactDataBlocks < nbContactDataBlocks)
return false;
if(wakeCounterResetValue <= 0.0f)
return false;
if(!sanityBounds.isValid())
return false;
#if PX_SUPPORT_GPU_PHYSX
if(!PxIsPowerOfTwo(gpuMaxNumPartitions))
return false;
if(gpuMaxNumPartitions > 32)
return false;
if (gpuMaxNumPartitions == 0)
return false;
if(!gpuDynamicsConfig.isValid())
return false;
if (flags & PxSceneFlag::eSUPPRESS_READBACK)
{
if(!(flags & PxSceneFlag::eENABLE_GPU_DYNAMICS && broadPhaseType == PxBroadPhaseType::eGPU))
return false;
}
#endif
if(contactPairSlabSize == 0)
return false;
return true;
}
#if !PX_DOXYGEN
} // namespace physx
#endif
#endif